Insecticide-treated mozzie nets cut malaria cases by up to 68%

Publicly released:
Australia; International; QLD; NT
Photo by Jane Stroebel on Unsplash
Photo by Jane Stroebel on Unsplash

Insecticide-treated mosquito nets cut malaria cases by up to 68%, according to Aussie researchers, but their effectiveness varies considerably between regions and communities, they say. The team analysed data from 25 studies looking at malaria infections and malaria-related deaths for people where nets were and were not in use, across eight African and four Asian countries. They found strong evidence that mosquito nets are effective in reducing malaria cases and deaths; however, they also found that there were considerable differences in the effectiveness of nets between studies, which they say may be influenced by changes to mozzie species diversity, insecticide resistance, and compliance with net usage, among other factors. The team emphasise that while nets are effective, it's important not to rely on any one tool, especially in areas with established insecticide resistance.

News release

From: Taylor and Francis Group

Global study confirms mosquito nets remain a powerful weapon against malaria – but warns their long-term effectiveness is under threat

“Mosquitoes are developing resistance and adapting their behaviour,” experts warn

A major analysis of 25 studies across Africa and Asia finds that insecticide-treated nets cut
malaria cases by up to 68% — but highlights challenges that threaten to undermine their longterm
impact.
The study, published in the peer-reviewed journal Infectious Diseases, confirms that insecticidetreated
nets (ITNs) continue to provide strong protection against malaria – but reveals that their
effectiveness varies considerably between regions and communities.
These findings suggest that the performance of this relatively simple, low-cost intervention is
under pressure — particularly in areas where insecticide resistance is already established.
The researchers warn that without locally adapted control strategies that combine ITNs with
other mosquito control measures, progress made over recent decades could be at risk.
“While this study reinforces that ITNs remain one of the most powerful weapons we have against
malaria, it is also a warning that we cannot afford to become complacent,” says Dr Gbeminiyi
Otolorin, a doctoral researcher at James Cook University, Australia, and a veterinary public health
clinician and researcher in the Faculty of Veterinary Medicine at the University of Jos, Nigeria.
“Mosquitoes are developing resistance and adapting their behaviour – and a tool that works well
in one place may already be failing in another. We must continuously monitor, evaluate and
tailor our control strategies as we strive towards global elimination of the disease.”
Malaria is a life-threatening disease caused by a parasite transmitted to humans through the
bites of infected mosquitoes. In 2024, there were an estimated 282 million cases and 610,000
deaths from the infection worldwide. ITNs are among the most widely used and cost-effective
tools in malaria prevention – protecting individuals while reducing mosquito populations and
cutting transmission across entire communities.
In order to get a better understanding of how much insecticide-treated nets truly reduce malaria
illness and death, the researchers analysed data from 25 experimental studies comparing ITN
performance with no nets. These included 19 studies examining malaria incidence and six
assessing malaria-related deaths, spanning eight African and four Asian countries. Study
populations included children under five, pregnant women, households, and entire
communities, with follow-up periods ranging from two months to five years.
The findings confirm the strong protective effect of ITNs across these diverse settings. In Asia,
ITNs were associated with a 68% reduction in malaria cases and an 18% reduction in malariarelated
deaths. In Africa, they reduced malaria incidence by between 29% and 40%.
However, the researchers also identified considerable variation in the effectiveness of ITNs
between studies, particularly in Asia. They suggest these differences may be influenced by
complex local factors — including mosquito species diversity, patterns of insecticide resistance,
and community compliance with net use.
“ITNs are undeniably an effective tool that has saved millions of lives and will continue to do so
— but relying on them alone is not enough, particularly in areas with established insecticide
resistance,” adds Dr Otolorin, a specialist in infectious disease epidemiology.
“Integrated strategies that combine nets with other interventions should now be considered
essential – otherwise we risk losing ground in the fight against a disease that still kills hundreds
of thousands of people every year.”The paper calls for further research evaluating long-term net durability, community compliance,
and insecticide resistance patterns.
“My hope is that this work adds to the existing evidence base supporting malaria control efforts
and contributes to ongoing discussions around how insecticide-treated nets can be improved,
adapted, and used effectively in communities where malaria prevention remains a priority,” Dr
Otolorin concludes.

Attachments

Note: Not all attachments are visible to the general public. Research URLs will go live after the embargo ends.

Research Taylor and Francis Group, Web page
Journal/
conference:
Infectious Diseases
Research:Paper
Organisation/s: James Cook University, Menzies School of Health Research, Charles Darwin University, Australian Institute of Tropical Health and Medicine (AITHM)
Funder: No potential conflict of interest was reported by the author(s)
Media Contact/s
Contact details are only visible to registered journalists.